The finish on this wheel is achieved through several different phases. The finishing process includes a silver powder coat foundation followed by two layers of clear coat, not a one stage enamel. This is the correct way to finish a wheel. They have an absolutely beautiful finish with a superior sheen due to the additional layer of clear coat. The photograph does not depict the superior finish of the wheel.
The finish on this wheel is achieved through several different phases. The finishing process begins with a black powder coat foundation. This is followed by a translucent silver which allows the black foundation to become visible through the silver, producing the color hyper silver. The final stage consists of two layers of clear coat. This wheel has a very professional appearance.
The finish on this wheel is achieved through several different phases. The finishing process includes a black powder coat foundation followed by two layers of clear coat, not a one stage enamel. This is the correct way to finish a wheel. The lip of the wheel is then precision machined using a coolant and ceramic bit. This method creates a fine machined aluminum appearance on the lip of the wheel. They have an absolutely beautiful finish with a superior sheen due to the additional layer of clear coat. The photograph does not depict the superior finish of the wheel.
These wheels are manufactured with the highest quality aluminum. The quality of the aluminum, machining and polishing process determines the shine of the wheel. They have an absolutely brilliant sheen giving the wheel an almost chrome appearance.
The finish on this wheel is achieved through several different phases. The finishing process includes a silver powder coat foundation followed by two layers of clear coat, not a one stage enamel. This is the correct way to finish a wheel. The lip of the wheel is then precision machined using a coolant and ceramic bit. This method creates a fine machined aluminum appearance on the lip of the wheel. They have an absolutely beautiful finish with a superior sheen due to the additional layer of clear coat. The photograph does not depict the superior finish of the wheel.
The finish on this wheel is achieved through several different phases. The finishing process begins with a silver powder coat applied to the wheel. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the silver powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. The final stage consists of two layers of clear coat. This wheel has a very professional appearance.
The finish on this wheel is achieved through several different phases. The finishing process begins with a black powder coat foundation. This is followed by a translucent silver which allows the black foundation to become visible through the silver, producing the color hyper silver. The final stage consists of two layers of clear coat. The lip of the wheel is then precision machined using a coolant and ceramic bit. This method creates a fine machined aluminum appearance on the lip of the wheel. This wheel has a very professional appearance.
The finish on this wheel is achieved through several different phases. The finishing process begins with a gunmetal powder coat applied to the wheel. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the gunmetal powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. The final stage consists of two layers of clear coat. This wheel has a very professional appearance.
The finish on this wheel is achieved through several different phases. The finishing process includes a black powder coat foundation followed by two layers of clear coat, not a one stage enamel. This is the correct way to finish a wheel. They have an absolutely beautiful finish with a superior sheen due to the additional layer of clear coat. The photograph does not depict the superior finish of the wheel.
The finish on this wheel is achieved through several different phases. The finishing process begins with a black powder coat applied to the wheel. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the black powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. The final stage consists of two layers of clear coat. This wheel has a very professional appearance.
The finish on this wheel is achieved through several different phases. The finishing process begins with a black powder coat foundation. This is followed by a translucent silver which allows the black foundation to become visible through the silver, producing the color hyper black. The final stage consists of two layers of clear coat. The lip of the wheel is then precision machined using a coolant and ceramic bit. This method creates a fine machined aluminum appearance on the lip of the wheel. This wheel has a very professional appearance.
The finish on this wheel is achieved through several different phases. The finishing process begins with a black powder coat foundation. This is followed by a translucent silver which allows the black foundation to become visible through the silver, producing the color hyper black. The final stage consists of two layers of clear coat. This wheel has a very professional appearance.
The finish on this wheel is achieved through several different phases. The process includes an anthracite powder coat foundation followed by two layers of clear coat, not a one stage enamel. This is the correct way to finish a wheel. The lip of the wheel is then precision machined using a coolant and ceramic bit. This method creates a fine machined aluminum appearance on the lip of the wheel. They have an absolutely beautiful finish with a superior sheen due to the additional layer of clear coat. The photograph does not depict the superior finish of the wheel.
The finish on this wheel is achieved through several different phases. The finishing process includes a gunmetal powder coat foundation followed by two layers of clear coat, not a one stage enamel. This is the correct way to finish a wheel. The lip of the wheel is then precision machined using a coolant and ceramic bit. This method creates a fine machined aluminum appearance on the lip of the wheel. They have an absolutely beautiful finish with a superior sheen due to the additional layer of clear coat. The photograph does not depict the superior finish of the wheel.
The finish on this wheel is achieved through several different phases. The finishing process begins with the application of a black powder coat foundation. Two layers of non-gloss clear coat are then applied, providing a seamless satin appearance as well as offering excellent protection to the powder coat.
The finish on this wheel is achieved through several different phases. The finishing process begins with the application of a black powder coat foundation. Two layers of non-gloss clear coat are then applied, providing a seamless satin appearance as well as offering excellent protection to the powder coat. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the black powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. The final stage consists of two layers of clear coat. This wheel has a very professional appearance.
The finish on this wheel is achieved through several different phases. The finishing process begins with the application of a black powder coat foundation. Two layers of non-gloss clear coat are then applied, providing a seamless satin appearance as well as offering excellent protection to the powder coat.
The finish on this wheel is achieved through several different phases. The finishing process begins with a satin black powder coat applied to the wheel. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the satin black powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. The final stage consists of two layers of clear coat, giving this wheel a beautiful and unique look.
The finish on this wheel is achieved through several different phases. The finishing process begins with the application of a black powder coat foundation. Two layers of non-gloss clear coat are then applied, providing a seamless satin appearance as well as offering excellent protection to the powder coat. Upon completion of powder coating, an injection molded polymer insert is applied to the wheel. This insert is coated using a vacuum metalization process where the evaporated aluminum particles adhere to the polymer and condense to form a uniform layer that has a bright chrome appearance. This state-of-the-art technology provides a refined look for your vehicle.
The finish on this wheel is achieved through several different phases. The finishing process includes a black powder coat foundation followed by two layers of clear coat, not a one stage enamel. This is the correct way to finish a wheel. They have an absolutely beautiful finish with a superior sheen due to the additional layer of clear coat. The photograph does not depict the superior finish of the wheel. Upon completion of powder coating, an injection molded polymer insert is applied to the wheel. This insert is coated using a vacuum metalization process where the evaporated aluminum particles adhere to the polymer and condense to form a uniform layer that has a bright chrome appearance. This state-of-the-art technology provides a refined look for your vehicle.
The finish on this wheel is achieved through several different phases. The finishing process includes a gunmetal powder coat foundation followed by two layers of clear coat, not a one stage enamel. This is the correct way to finish a wheel. They have an absolutely beautiful finish with a superior sheen due to the additional layer of clear coat. The photograph does not depict the superior finish of the wheel. Upon completion of powder coating, an injection molded polymer insert is applied to the wheel. This insert is coated using a vacuum metalization process where the evaporated aluminum particles adhere to the polymer and condense to form a uniform layer that has a bright chrome appearance. This state-of-the-art technology provides a refined look for your vehicle.
The finish on this wheel is achieved through several different phases. The finishing process begins with a black powder coat foundation. This is followed by a translucent silver which allows the black foundation to become visible through the silver, producing the color hyper black. The final stage consists of two layers of clear coat. This wheel has a very professional appearance. Upon completion of powder coating, an injection molded polymer insert is applied to the wheel. This insert is coated using a vacuum metalization process where the evaporated aluminum particles adhere to the polymer and condense to form a uniform layer that has a bright chrome appearance. This state of the art technology provides a refined look for your vehicle.
The finish on this wheel is achieved through several different phases. The finishing process begins with a black powder coat foundation. This is followed by a translucent silver which allows the black foundation to become visible through the silver, producing the color hyper silver. The final stage consists of two layers of clear coat. This wheel has a very professional appearance. Upon completion of powder coating, an injection molded polymer insert is applied to the wheel. This insert is coated using a vacuum metalization process where the evaporated aluminum particles adhere to the polymer and condense to form a uniform layer that has a bright chrome appearance. This state-of-the-art technology provides a refined look for your vehicle.
The finish on this wheel is achieved through several different phases. The finishing process includes a black powder coat foundation followed by two layers of clear coat, not a one stage enamel. This is the correct way to finish a wheel. They have an absolutely beautiful finish with a superior sheen due to the additional layer of clear coat. The photograph does not depict the superior finish of the wheel.
These wheels are manufactured with the highest quality aluminum. The quality of the aluminum, machining and polishing process determines the shine of the wheel. They have a brilliant sheen giving the wheel an almost chrome appearance. The finish on the painted inlay begins with a silver powder coat foundation. The last phase is the application of clear coat. The result is an absolutely beautiful finish with a superior sheen due to the clear coat on both the aluminum and paint. A photograph cannot truly capture the beautiful finish of this wheel.
Chrome is a brilliant and durable finish that, with a little care, can stand the test of time. A classic chrome finish is accomplished in a three-step plating process. The first layer of plating is copper which adheres to the wheel and creates a smooth foundation. The second is nickel, providing hardness and durability. The final layer is chrome, which creates a bright cosmetic finish.
The finish on this wheel is achieved through several different phases. The finishing process begins with the application of a bronze powder coat foundation. Two layers of non-gloss clear coat are then applied, providing a seamless satin appearance as well as offering excellent protection to the powder coat.
The finish on this wheel is achieved through several different phases. The finishing process begins with the application of a black powder coat foundation. Two layers of non-gloss clear coat are then applied, providing a seamless satin appearance as well as offering excellent protection to the powder coat. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the hyper black powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. The final stage consists of two layers of clear coat. This wheel has a very professional appearance.
The finish on this wheel is achieved through several different phases. The finishing process begins with the application of a black powder coat foundation. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the black powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. Two layers of non-gloss clear coat are then applied, providing a seamless satin appearance as well as offering excellent protection to the powder coat and aluminum face. Finally, an injection molded polymer insert is applied to the wheel. This insert is coated using a vacuum metallization process where evaporated aluminum particles adhere to the polymer and condense to form a uniform layer with a bright chrome appearance. This state of the art technology provides a truly refined look for your vehicle.
The finish on this wheel is achieved through several different phases. The finishing process begins with a black powder coat applied to the wheel. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the black powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. The final stage consists of two layers of clear coat. Finally, an injection molded polymer insert is applied to the wheel. This insert is coated using a vacuum metallization process where the evaporated aluminum particles adhere to the polymer and condense to form a uniform layer with a bright chrome appearance, giving this wheel a very professional appearance.
The finish on this wheel is achieved through several different phases. The finishing process begins with a gunmetal powder coat applied to the wheel. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the gunmetal powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. Finally, an injection molded polymer insert is applied to the wheel. This insert is coated using a vacuum metallization process where the evaporated aluminum particles adhere to the polymer and condense to form a uniform layer with a bright chrome appearance, giving this wheel an impressive appearance.
The finish on this wheel is achieved through several different phases. The finishing process begins with the application of a black powder coat foundation. The face of the wheel is then precision machined using a coolant and ceramic bit. This method leaves the hyper black powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. Two layers of non-gloss clear coat are then applied, providing a seamless satin appearance as well as offering excellent protection to the powder coat and aluminum face. Finally, an injection molded polymer insert is applied to the wheel. This insert is coated using a vacuum metallization process where the evaporated aluminum particles adhere to the polymer and condense to form a uniform layer with a bright chrome appearance, giving this wheel a beautiful two-tone appearance.
The finish on this wheel is achieved through several different phases. First we apply a black powder coat foundation. The face of the wheel is then precision machined using a coolant with a ceramic bit. This method leaves the black powder coat in the recessed areas between the spokes while creating a fine machined aluminum appearance on the face of the wheel. Then a milled groove is created on the lip of the wheel and painted with a red powder coat. Finally, two layers of clear coat are applied.
The finish on this wheel is achieved through several different phases. The process includes a black powder coat foundation. The edges of the wheel are then precision milled using a ceramic bit. This method creates a unique appearance on the edges of the wheel. The milling process is then followed by the application of clear coat, resulting in a beautiful finish.
The finish on this wheel is achieved through several different phases. The process includes a satin black powder coat foundation. The edges of the wheel are then precision milled using a ceramic bit. This method creates a unique appearance on the edges of the wheel. The milling process is then followed by the application of a special satin clear coat, resulting in a beautiful finish.
A unique, brilliant dark chrome look not possible with a traditional chrome plating process. The black chrome has all the reflective mirror like qualities of chrome that stand out from traditional chrome plating. The color is very consistent and reflects differently with each wheel design. This durable coating process is more environmentally friendly than traditional plating with no harmful chemicals to dispose of in the manufacturing process.
The finish on this wheel is achieved through several different phases. The finishing process begins with a black powder coat foundation. This is followed by a translucent silver which allows the black foundation to become visible through the silver, producing the color hyper black. The final stage consists of two layers of clear coat. This wheel has a very professional appearance. Upon completion of powder coating, an injection molded polymer insert is applied to the wheel. This insert is coated using a matte paint process. This state of the art technology provides a refined look for your vehicle.